TWM608532U - Environmental protection film containing mineral energy stone and degradable plastic film - Google Patents

Abstract

An environmental protection film containing mineral energy stone, which comprises a base material and a mineral energy stone powder. The substrate is in the form of a sheet, and the mineral energy stone powder is distributed in the substrate, wherein the mineral energy stone powder has a porous structure and is formed by calcining an inorganic material and an organic material in a temperature range. The mineral energy stone includes Silica, iron oxide, aluminum oxide, magnesium oxide, calcium oxide, organic potassium and trace elements. This mineral energy stone emits far infrared rays with a wavelength range of 4 to 12 microns.

Description

Environmental protection film containing mineral energy stone and degradable plastic film

This creation is related to the technical field of an environmentally friendly material, especially an environmentally friendly diaphragm containing mineral energy stones and a degradable plastic film.

Due to the development of petrochemical technology, plastic products have gradually entered into human daily life and become indispensable items. Plastic products are used in many items in daily life, such as masks, clothing, packaging bags or agricultural mulch. But when these items are discarded, they are usually disposed of through landfill or incineration. In terms of burial methods, when these plastic products exist in the soil, the plastic takes a very long time to decompose in the natural environment, thus causing pollution to the natural environment. In terms of incineration methods, various carbon oxides or other harmful substances will be produced after incineration, which will cause air pollution and seriously affect the human living environment.

In view of this, the purpose of this creation is to provide an environmentally friendly film containing mineral energy stones and a degradable plastic film. Mineral energy stones are made of inorganic materials such as natural minerals or volcanic ash, and organic plant biomass materials such as wood chips, bamboo chips, rice stalks or corn stalks, which are ground, mixed and finally calcined to form porous mineral energy stone monomers. The mineral energy stone monomer becomes the mineral energy stone powder after multiple grinding. After mixing the mineral energy stone powder and plastic particles, it is heated to a molten state, and an environmental protection film containing mineral energy stone can be formed by a mold. Then, the environmental protection film containing the mineral energy stone is combined with a substrate to form a degradable plastic film.

An embodiment of the environmental protection membrane containing energy ore of the present invention includes a base material with a mineral energy stone powder. The substrate is in the form of a sheet, and the mineral energy stone powder is distributed in the substrate, wherein the mineral energy stone powder has a porous structure and is formed by calcining an inorganic material and an organic material in a temperature range. The mineral energy stone includes Silica, iron oxide, aluminum oxide, magnesium oxide, calcium oxide, organic potassium and trace elements. This mineral energy stone emits far infrared rays with a wavelength range of 4 to 12 microns.

In another embodiment, the inorganic material includes ore and pozzolan.

In another embodiment, the organic material includes plant biomass material.

In another embodiment, the temperature range of 1000 ^o C to 1500 ^o C.

In another embodiment, the pH of the mineral energy stone is 7.0 to 7.2.

In another embodiment, the substrate is polyethylene.

The degradable plastic film of the present invention includes a base film and the aforementioned environmental protection film containing mineral energy stones, and the environmental protection film containing mineral energy stones is combined with the base film.

In another embodiment, the base film is a polyethylene film.

The environmental protection diaphragm made of the mineral energy stone of this creation and the degradable plastic film made of the environmental protection diaphragm, when it is discarded and buried in the soil, the pyrolysis of the mineral energy stone powder makes it environmentally friendly The membrane or degradable plastic film degrades into a number of tiny particles to become a component of the soil, and the pH value of the mineral energy stone of this creation is neutral, so it will not acidify or alkalize the soil, and can achieve the effect of protecting the environment. . In addition, because the mineral energy stone of this creation has a special mineral structure, the wave energy generated by the electric current magnetic field can decompose the soil through the shock wave to improve the acidification of the soil, and because the mineral energy stone of this creation will continue to emit The far-infrared rays molecularize the soil and increase the oxygen content of the soil, so that the roots of the plants that reside in the soil can be fully extended, and because the mineral energy stone of this creation has a variety of trace elements, it can be absorbed by the roots of the plants and strengthen the plants. Grow and resist pests and diseases.

Please refer to Figures 1 and 2, which show an embodiment of the mineral energy stone of this creation.

As shown in Figure 2, in step S1, an inorganic material is provided. In this embodiment, the inorganic material is natural mineral soil or pozzolan, for example, the weight percentage of natural mineral soil is 60%-70%, and the weight of pozzolan The percentage is 15%-20%. Then go to step S2.

In step S2, please also refer to FIG. 6 to grind the inorganic material to generate an inorganic abrasive material. Put the inorganic material into a crusher or pulverizer to grind into a smaller particle size inorganic abrasive material. Put the natural mineral soil M1 and the volcanic ash into the crusher or the crusher S to grind and mix them into inorganic abrasive materials at the same time. Natural mineral soil can be mineral soil containing elements such as iron, aluminum, magnesium, calcium, and volcanic ash contains elements such as silicon.

In step S3, an organic material is provided. In this embodiment, the organic material may be wood chips M2, bamboo chips, rice stalks, bagasse, wheat stalks, or corn stalks and other plant biomass materials. The weight percentage of plant biomass material is 15%-20%. Then go to step S4.

In step S4, please also refer to FIG. 6 to grind the organic material to generate an organic abrasive material. In this embodiment, plant biomass materials such as wood chips M2, bamboo chips, rice stalks, bagasse, wheat stalks, or corn stalks are put into a crusher or pulverizer S to grind and mix them into organic abrasive materials at the same time. In the example, the organic abrasive material has a fineness of 3000 mesh to 5000 mesh. Then go to step S5.

In step S5, please refer to FIG. 7 together to mix the inorganic abrasive material O1 and the organic abrasive material O2. For example, place the natural mineral soil M1 with a weight percentage of 60%-70%, a pozzolan with a weight percentage of 15%-20%, and a plant biomass material with a weight percentage of 15%-20% in the mixer B for mixing. . Then go to step S6.

In step S6, please also refer to Figure 8 to calcinate the mixed inorganic abrasive material O1 and organic abrasive material O2 within a temperature range to form a mineral energy stone block. In this embodiment, the mixed natural ore soil M1, pozzolan and plant biomass materials are put into the calcining furnace C and calcined at a temperature of 1000 ^o C to 1500 ^o C to generate porous mineral energy The stone single body 10 has a plurality of holes 11. As shown in Figure 1, in the high-temperature calcination process, the inorganic abrasive material O1 is crystallized at high temperature to form the mineral energy stone monomer 10, and the organic abrasive material O2 burns to produce gas during the high temperature calcination process, which makes the mineral energy stone monomer A plurality of pores 11 are formed in 10 to form a porous monomer. Then go to step S7.

In step S7, the mineral energy stone monomer 10 is ground several times, the mineral energy stone monomer 10 is ground into a fine particle shape as shown in Fig. 3, and then the fine particle energy stone monomer 10 is ground As shown in Fig. 4, micro particles with a smaller particle size are formed, and finally a mineral energy stone powder 101 as shown in Fig. 5 is formed. Then go to step S8.

In step S8, granulation is completed by forming the mineral energy stone powder 101.

The main chemical composition of the mineral energy stone 10 of this creation is shown in Table 1 below: Ingredient name Silicon dioxide (SiO ₂ ) Iron oxide (Fe ₂ O ₃ ) Alumina (Al ₂ O ₃ ) Magnesium Oxide (MgO) Calcium Oxide (CaO) Organic Potassium (K) Mineral trace elements percentage 65% 3% 2% 2% 0.5% 0.1% Many kinds

After testing, the specific gravity of the mineral energy stone 10 of this creation is 0.4-0.6, its pH is 7.0-7.4, and its specific surface area is 50-60 (m ² /g). In addition, the mineral energy stone 10 of this creation can continuously emit far infrared rays with a wavelength range of 4 to 12 microns.

The energy ore powder of this creation can be mixed into kitchen waste, slaughterhouse leftovers or agricultural processing leftovers to convert the kitchen waste, leftovers or agricultural processing leftovers into organic fertilizer or feed. The energy ore powder of this creation can also be used to treat the excrement of farmed animals to achieve antibacterial and mildew resistance and can transform excrement into organic fertilizer.

The mineral energy stone powder of this creation can be mixed with plastic particles, and then the mineral energy stone powder and plastic particles are sent out of the molding machine. For example, the mineral energy stone powder and additives account for 50% by weight and the plastic particles account for 50% by weight. After mixing, the injection molding machine heats the plastic particles to form a molten state, and the mineral energy stone powder is finely and uniformly mixed with the molten plastic Then, the molten plastic and the mineral energy stone powder mixed therein are injected into the mold to form an environmentally friendly film. As shown in FIG. 9, the structure of the environmental protection membrane 100 is based on plastic as the base material 20, the base material 20 is in the form of a sheet, and the mineral energy stone powder 10 is evenly distributed in the base material 20. In this embodiment, the plastic particles may be polyethylene particles.

The environmental protection film of this creation can be combined with other substrates to make environmental protection plastic bags, masks, clothing, mulch for agricultural land, etc. As shown in FIG. 10, the environmental protection film 100 of the present creation is combined with a substrate film 200 by heating and bonding to form a degradable plastic film 1000. In this embodiment, the base film 200 may be a flexible polyethylene film. When the biodegradable plastic film of this creation is applied to the mulch for agricultural land, the mulch is laid on the ground. Under the action of the heat of the sun and the surface water vapor, after 40-180 days of photosynthesis, the microorganisms in the soil can be completely The degradable plastic film created by this creation is cracked ground, the fragments after cracking can be completely integrated into the soil, and will not pollute the environment.

The degradable plastic film 1000 of this invention can be used to make the plastic bag P shown in Fig. 11 and the mask N shown in Fig. 12.

The environmental protection diaphragm made of the mineral energy stone of this creation and the degradable plastic film made of the environmental protection diaphragm, when it is discarded and buried in the soil, the pyrolysis of the mineral energy stone powder makes it environmentally friendly The membrane or degradable plastic film degrades into a number of tiny particles to become a component of the soil, and the pH value of the mineral energy stone of this creation is neutral, so it will not acidify or alkalize the soil, and can achieve the effect of protecting the environment. . In addition, because the mineral energy stone of this creation has a special mineral structure, the wave energy generated by the electric current magnetic field can decompose the soil through the shock wave to improve the acidification of the soil, and because the mineral energy stone of this creation will continue to emit The far-infrared rays molecularize the soil and increase the oxygen content of the soil, so that the roots of the plants that reside in the soil can be fully extended, and because the mineral energy stone of this creation has a variety of trace elements, it can be absorbed by the roots of the plants and strengthen the plants. Grow and resist pests and diseases.

However, the above are only the preferred embodiments of this creation, and should not be used to limit the scope of implementation of this creation, that is, simple equivalent changes and modifications made in accordance with the scope of patent application and new description of this creation , Are still within the scope of this creation patent. In addition, any embodiment of this creation or the scope of the patent application does not have to achieve all the purposes or advantages or features disclosed in the creation. In addition, the abstract part and title are only used to assist in searching for patent documents, not to limit the scope of rights of this creation. In addition, the terms "first" and "second" mentioned in this specification or the scope of the patent application are only used to name the element (element) or to distinguish different embodiments or ranges, and are not used to limit the number of elements. Upper or lower limit.

10: Mineral Energy Stone 101: Mineral Energy Stone Powder 11: Hole 20: Substrate 100: Environmental protection diaphragm 200: Substrate film 1000: Degradable plastic film B: Mixing machine C: Calciner M1: Natural mineral soil M2: Sawdust N: Mask P: Plastic bag S: Shredder S1~S8: steps O1: Inorganic abrasive materials O2: organic abrasive material

Figure 1 is a three-dimensional schematic diagram of the created mineral energy stone monomer. Figure 2 is a flow chart of the manufacturing method of the mineral energy stone created. Figure 3 is a schematic diagram of the creation of a mineral energy stone that is ground into smaller particles. Figure 4 is a schematic diagram of the creation of a mineral energy stone that is ground into smaller particles. Figure 5 is a schematic diagram of the creation of the mineral energy stone being ground into powder. Figure 6 is a schematic diagram of the grinding of inorganic materials and organic materials in the manufacturing method of the mineral energy stone created. Figure 7 is a schematic diagram of mixing the polished inorganic materials and organic materials in the manufacturing method of the mineral energy stone created. Figure 8 is a schematic diagram of calcining the mixed inorganic materials and organic materials in the manufacturing method of the mineral energy stone created. Figure 9 is a cross-sectional view of the environmental protection diaphragm made of the mineral energy stone created. Figure 10 is a cross-sectional view of the biodegradable plastic film created. Figure 11 is a schematic diagram of a plastic bag made of biodegradable plastic film created. Figure 12 is a schematic diagram of a mask made of biodegradable plastic film created.

100: Environmental protection diaphragm containing mineral energy stone

101: Mineral Energy Stone Powder

20: Substrate

Claims (10)

An environmental protection diaphragm containing mineral energy stone, which comprises: A substrate (20), which is in the shape of a sheet; A mineral energy stone powder (10), the mineral energy stone powder (10) is distributed in the substrate (20), wherein the mineral energy stone powder (10) has a porous structure and is composed of an inorganic material and an organic material Calcined in a temperature range, the mineral energy stone (10) includes silicon dioxide, iron oxide, aluminum oxide, magnesium oxide, calcium oxide, organic potassium and trace elements. The mineral energy stone (10) emits a wavelength range of Far infrared from 4 to 12 microns. The environmental protection diaphragm containing mineral energy stone according to claim 1, wherein the inorganic material includes an ore (M1) and a pozzolan. The environmental protection membrane containing mineral energy stone according to claim 1 or 2, wherein the organic material includes a plant biomass material. The environmental protection film containing mineral energy stone according to claim 3, wherein the plant biomass material includes a wood chip (M2), a bamboo chip, a rice stalk, a bagasse, a wheat stalk or a corn stalk. The requested item of the energy of rock containing mineral environmental diaphragm 1, wherein the temperature range of 1000 ^o C to 1500 ^o C. The environmental protection membrane containing mineral energy stone according to claim 1, wherein the pH value of the mineral energy stone (10) is 7.0 to 7.4. The environmental protection diaphragm containing mineral energy stone according to claim 1, wherein the specific gravity of the mineral energy stone (10) is 0.4 to 0.6. Such as the environmental protection membrane containing mineral energy stone of claim 1, wherein the base material (20) is polyethylene. A degradable plastic film, which includes: A base film (200), which is in the shape of a flexible sheet; An environmental protection membrane (100) containing mineral energy stones according to any one of claims 1 to 8, wherein the environmental protection membrane (100) containing mineral energy stones is bonded to the substrate membrane (200). The degradable plastic film according to claim 9, wherein the base film (200) is a polyethylene film.

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